An 80% peak efficiency, 410mW, single supply rail powered Class-I linear audio amplifier

“…The linearity performance of the amplifier can be quantized by the THD+N ratio. supply class H amplifier [22]. It can be observed from the figure that for the benchmark design, the THD+N ratio incurs a sharp degradation from 0.01% to 0.05% when the class H supply-tracking mode is activated.…”

“…In view of the above analysis, it is highly desired to have a power amplifier that combines the advantages of a class AB and a class D amplifier. Reference [22] proposed a supply-tracking audio amplifier where a dc-dc converter is modulated to generate a variable supply voltage that keeps the power transistor headroom constant. The authors named their proposed amplifier as 'class I', however, the concept of their work is is similar to the concept of a class H amplifier.…”

“…In [26], the class H is referred as a special category of class G amplifier in which the higher supply voltage is realized by a bootstrapped capacitor and only temporary power from this higher supply voltage is available. In [22], an adaptive supply power amplifier which is able to continuously adjust the supply output is proposed but is referred to as class I amplifier. To the author's best knowledge, there is yet a naming convention for such architecture.…”

“…The second type of disturbance is unique for single-rail adaptive supply power amplifiers. In methods [22,36] the output CM level is switched constantly to enable the amplifier's operation with single-rail supply. These abrupt changes on output CM level will lead to high frequency spikes at the output nodes and bring in more distortions.…”

“…As shown in To tackle this problem, various approaches had been implemented. One straightforward solution is to delay the audio input that is fed into the linear amplifier, therefore an additional delay time is added to the amplifier module [22]. The drawbacks of this solution is that it is still very hard to match this newly-added latency with the one of the power supply module, if it is over compensated similar issue will occur when the system is switching back from class H to class AB mode.…”

Analysis and design of an adaptive-supply class H audio power amplifier for mobile devices

“…The linearity performance of the amplifier can be quantized by the THD+N ratio. supply class H amplifier [22]. It can be observed from the figure that for the benchmark design, the THD+N ratio incurs a sharp degradation from 0.01% to 0.05% when the class H supply-tracking mode is activated.…”

“…In view of the above analysis, it is highly desired to have a power amplifier that combines the advantages of a class AB and a class D amplifier. Reference [22] proposed a supply-tracking audio amplifier where a dc-dc converter is modulated to generate a variable supply voltage that keeps the power transistor headroom constant. The authors named their proposed amplifier as 'class I', however, the concept of their work is is similar to the concept of a class H amplifier.…”

“…In [26], the class H is referred as a special category of class G amplifier in which the higher supply voltage is realized by a bootstrapped capacitor and only temporary power from this higher supply voltage is available. In [22], an adaptive supply power amplifier which is able to continuously adjust the supply output is proposed but is referred to as class I amplifier. To the author's best knowledge, there is yet a naming convention for such architecture.…”

“…The second type of disturbance is unique for single-rail adaptive supply power amplifiers. In methods [22,36] the output CM level is switched constantly to enable the amplifier's operation with single-rail supply. These abrupt changes on output CM level will lead to high frequency spikes at the output nodes and bring in more distortions.…”

“…As shown in To tackle this problem, various approaches had been implemented. One straightforward solution is to delay the audio input that is fed into the linear amplifier, therefore an additional delay time is added to the amplifier module [22]. The drawbacks of this solution is that it is still very hard to match this newly-added latency with the one of the power supply module, if it is over compensated similar issue will occur when the system is switching back from class H to class AB mode.…”

Analysis and design of an adaptive-supply class H audio power amplifier for mobile devices

A highly efficient, 420mW class-H headphone amplifier with single power supply rail

An 87% Peak Efficiency, 37W, Class H Audio Amplifier with GaN Output Stage